Grids of stellar models with rotation VI. Models from 0.8 to 120 M-circle dot at a metallicity Z=0.006
Context. Grids of stellar models, computed with the same physical ingredients, allow one to study the impact of a given physics on a broad range of initial conditions and they are a key ingredient for modeling the evolution of galaxies. Aims. We present here a grid of single star models for masses b...
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my.um.eprints.345972022-05-31T06:50:42Z http://eprints.um.edu.my/34597/ Grids of stellar models with rotation VI. Models from 0.8 to 120 M-circle dot at a metallicity Z=0.006 Eggenberger, Patrick Ekstroem, Sylvia Georgy, Cyril Martinet, Sebastien Pezzotti, Camilla Nandal, Devesh Meynet, Georges Buldgen, Gael Salmon, Sebastien Haemmerle, Lionel Maeder, Andre Hirschi, Raphael Yusof, Norhasliza Groh, Jose Farrell, Eoin Murphy, Laura Choplin, Arthur QC Physics Context. Grids of stellar models, computed with the same physical ingredients, allow one to study the impact of a given physics on a broad range of initial conditions and they are a key ingredient for modeling the evolution of galaxies. Aims. We present here a grid of single star models for masses between 0.8 and 120 M-circle dot, with and without rotation for a mass fraction of heavy element Z = 0.006, representative of the Large Magellanic Cloud (LMC). Methods. We used the GENeva stellar Evolution Code. The evolution was computed until the end of the central carbon-burning phase, the early asymptotic giant branch phase, or the core helium-flash for massive, intermediate, and low mass stars, respectively. Results. The outputs of the present stellar models are well framed by the outputs of the two grids obtained by our group for metallicities above and below the one considered here. The models of the present work provide a good fit to the nitrogen surface enrichments observed during the main sequence for stars in the LMC with initial masses around 15 M-circle dot. They also reproduce the slope of the luminosity function of red supergiants of the LMC well, which is a feature that is sensitive to the time-averaged mass loss rate over the red supergiant phase. The most massive black hole that can be formed from the present models at Z = 0.006 is around 55 M-circle dot. No model in the range of mass considered will enter into the pair-instability supernova regime, while the minimal mass to enter the region of pair pulsation instability is around 60 M-circle dot for the rotating models and 85 M-circle dot for the nonrotating ones. Conclusions. The present models are of particular interest for comparisons with observations in the LMC and also in the outer regions of the Milky Way. We provide public access to numerical tables that can be used for computing interpolated tracks and for population synthesis studies. Edp Sciences S A 2021-08-24 Article PeerReviewed Eggenberger, Patrick and Ekstroem, Sylvia and Georgy, Cyril and Martinet, Sebastien and Pezzotti, Camilla and Nandal, Devesh and Meynet, Georges and Buldgen, Gael and Salmon, Sebastien and Haemmerle, Lionel and Maeder, Andre and Hirschi, Raphael and Yusof, Norhasliza and Groh, Jose and Farrell, Eoin and Murphy, Laura and Choplin, Arthur (2021) Grids of stellar models with rotation VI. Models from 0.8 to 120 M-circle dot at a metallicity Z=0.006. Astronomy & Astrophysics, 652. ISSN 0004-6361, DOI https://doi.org/10.1051/0004-6361/202141222 <https://doi.org/10.1051/0004-6361/202141222>. 10.1051/0004-6361/202141222 |
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QC Physics Eggenberger, Patrick Ekstroem, Sylvia Georgy, Cyril Martinet, Sebastien Pezzotti, Camilla Nandal, Devesh Meynet, Georges Buldgen, Gael Salmon, Sebastien Haemmerle, Lionel Maeder, Andre Hirschi, Raphael Yusof, Norhasliza Groh, Jose Farrell, Eoin Murphy, Laura Choplin, Arthur Grids of stellar models with rotation VI. Models from 0.8 to 120 M-circle dot at a metallicity Z=0.006 |
| description |
Context. Grids of stellar models, computed with the same physical ingredients, allow one to study the impact of a given physics on a broad range of initial conditions and they are a key ingredient for modeling the evolution of galaxies. Aims. We present here a grid of single star models for masses between 0.8 and 120 M-circle dot, with and without rotation for a mass fraction of heavy element Z = 0.006, representative of the Large Magellanic Cloud (LMC). Methods. We used the GENeva stellar Evolution Code. The evolution was computed until the end of the central carbon-burning phase, the early asymptotic giant branch phase, or the core helium-flash for massive, intermediate, and low mass stars, respectively. Results. The outputs of the present stellar models are well framed by the outputs of the two grids obtained by our group for metallicities above and below the one considered here. The models of the present work provide a good fit to the nitrogen surface enrichments observed during the main sequence for stars in the LMC with initial masses around 15 M-circle dot. They also reproduce the slope of the luminosity function of red supergiants of the LMC well, which is a feature that is sensitive to the time-averaged mass loss rate over the red supergiant phase. The most massive black hole that can be formed from the present models at Z = 0.006 is around 55 M-circle dot. No model in the range of mass considered will enter into the pair-instability supernova regime, while the minimal mass to enter the region of pair pulsation instability is around 60 M-circle dot for the rotating models and 85 M-circle dot for the nonrotating ones. Conclusions. The present models are of particular interest for comparisons with observations in the LMC and also in the outer regions of the Milky Way. We provide public access to numerical tables that can be used for computing interpolated tracks and for population synthesis studies. |
| format |
Article |
| author |
Eggenberger, Patrick Ekstroem, Sylvia Georgy, Cyril Martinet, Sebastien Pezzotti, Camilla Nandal, Devesh Meynet, Georges Buldgen, Gael Salmon, Sebastien Haemmerle, Lionel Maeder, Andre Hirschi, Raphael Yusof, Norhasliza Groh, Jose Farrell, Eoin Murphy, Laura Choplin, Arthur |
| author_facet |
Eggenberger, Patrick Ekstroem, Sylvia Georgy, Cyril Martinet, Sebastien Pezzotti, Camilla Nandal, Devesh Meynet, Georges Buldgen, Gael Salmon, Sebastien Haemmerle, Lionel Maeder, Andre Hirschi, Raphael Yusof, Norhasliza Groh, Jose Farrell, Eoin Murphy, Laura Choplin, Arthur |
| author_sort |
Eggenberger, Patrick |
| title |
Grids of stellar models with rotation VI. Models from 0.8 to 120 M-circle dot at a metallicity Z=0.006 |
| title_short |
Grids of stellar models with rotation VI. Models from 0.8 to 120 M-circle dot at a metallicity Z=0.006 |
| title_full |
Grids of stellar models with rotation VI. Models from 0.8 to 120 M-circle dot at a metallicity Z=0.006 |
| title_fullStr |
Grids of stellar models with rotation VI. Models from 0.8 to 120 M-circle dot at a metallicity Z=0.006 |
| title_full_unstemmed |
Grids of stellar models with rotation VI. Models from 0.8 to 120 M-circle dot at a metallicity Z=0.006 |
| title_sort |
grids of stellar models with rotation vi. models from 0.8 to 120 m-circle dot at a metallicity z=0.006 |
| publisher |
Edp Sciences S A |
| publishDate |
2021 |
| url |
http://eprints.um.edu.my/34597/ |
| _version_ |
1735409615723560960 |